cyv15g0404dxb Cypress Semiconductor Corporation., cyv15g0404dxb Datasheet - Page 37

cyv15g0404dxb

Manufacturer Part Number

cyv15g0404dxb

Description

Independent Clock Quad Hotlink Ii Transceiver With Reclocker

Manufacturer

Cypress Semiconductor Corporation.

Datasheet

1.CYV15G0404DXB.pdf (44 pages)

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mission of any transmission character, the transmitter selects the

proper version of the transmission character based on the

current running disparity value, and the transmitter calculates a

new value for its running disparity based on the contents of the

transmitted character. Special character codes C1.7 and C2.7

can be used to force the transmission of a specific special

character with a specific running disparity as required for some

special sequences in X3.230.

After powering on, the receiver may assume either a positive or

negative value for its initial running disparity. Upon reception of

any transmission character, the receiver decides whether the

transmission character is valid or invalid according to the

following rules and tables and calculates a new value for its

running disparity based on the contents of the received

character.

The following rules for running disparity are used to calculate the

new running disparity value for transmission characters that

have been transmitted and received.

Running disparity for a transmission character is calculated from

subblocks, where the first six bits (abcdei) form one subblock and

the second four bits (fghj) form the other subblock. Running

disparity at the beginning of the 6-bit subblock is the running

disparity at the end of the previous transmission character.

running disparity at the beginning of the 4-bit subblock is the

running disparity at the end of the 6-bit subblock. Running

disparity at the end of the transmission character is the running

disparity at the end of the 4-bit subblock.

Running disparity for the subblocks is calculated as follows:

Use of the Tables for Generating Transmission

Characters

The appropriate entry in

Table 15

character is generated. The current value of the transmitter’s

running disparity is used to select the transmission character

from its corresponding column. For each transmission character

Table 13. Code Violations Resulting from Prior Errors

Document #: 38-02097 Rev. *B

1. Running disparity at the end of any subblock is positive if the

2. Running disparity at the end of any subblock is negative if the

3. Otherwise, running disparity at the end of the subblock is the

Transmitted data character

Transmitted bit stream

Bit stream after error

Decoded data character

subblock contains more ones than zeros. It is also positive at

the end of the 6-bit subblock if the 6-bit subblock is 000111,

and it is positive at the end of the 4-bit subblock if the 4-bit

subblock is 0011.

subblock contains more zeros than ones. It is also negative

at the end of the 6-bit subblock if the 6-bit subblock is 111000,

and it is negative at the end of the 4-bit subblock if the 4-bit

subblock is 1100.

same as at the beginning of the subblock.

for Special Character byte identify which transmission

Table 14

–

for the valid data byte or

101010 1001

101010 1011

Character

D21.1

D21.0

–

transmitted, a new value of the running disparity is calculated.

This new value is used as the transmitter’s current running

disparity for the next valid data byte or Special Character byte

encoded and transmitted.

examples of valid transmission characters.

Use of the Tables for Checking the Validity of Received

Transmission Characters

The column corresponding to the current value of the receiver’s

running disparity is searched for the received transmission

character. If the received transmission character is found in the

proper column, then the transmission character is valid and the

associated data byte or special character code is determined

(decoded). If the received transmission character is not found in

that column, then the transmission character is invalid. This is a

code violation. Independent of the transmission character’s

validity, the received transmission character is used to calculate

a new value of running disparity. The new value is used as the

receiver’s current running disparity for the next received trans-

mission character.

Table 12. Valid Transmission Characters

Detection of a code violation does not necessarily show that the

transmission character in which the code violation was detected

is in error. Code violations may result from a prior error that

altered the running disparity of the bit stream which did not result

in a detectable error at the transmission character in which the

error occurred.

010101 0101

Byte Name

Character

D30.7

D31.7

D10.2

D0.0

D1.0

D2.0

D5.2

Table 12

000

010

111

765

shows an example of this behavior.

–

Table 12

Data

or Q

00000

00001

00010

00101

11110

11111

43210

Code Violation

OUT

111010 1010

CYV15G0404DXB

Character

shows naming notations and

D23.5

Hex Value

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